When displaying a manipulated independent variable on a line graph, you usually place it along the x-axis (horizontal axis). This allows you to show the relationship between this variable and the dependent variable plotted on the y-axis (vertical axis) over time or another continuum.
To prove that air takes up space without adding a manipulated variable, you can use a simple experiment where you place an inflated balloon inside a closed container. Close the container and observe that the balloon will prevent the container from being fully closed, demonstrating that the air inside the balloon (which is a part of the air in the container) is taking up space.
A speed graph shows how an object's speed changes over time. The horizontal axis represents time, while the vertical axis represents speed. The slope of the line on the graph indicates the acceleration or deceleration of the object.
The dependent variable in this experiment is the number of animals caught in the pit traps after three days.
That would be true, in the case of a graph of speed vs time.
A curve of a force F, vs displacement x (F vs x), represents the magnitude of a force as it is producing a displacement of a body. The area under the curve froma point x1, to point x2, represents the work done by the force;W =⌠FdxIf the force is constant from x1 to x2, then; W =F∙(x2 - x1)The slope of the curve at a given value of x, (dF/dx),tells us how the force F isvarying with displacement x at that point.For the case of a constant force, the value of the slope is zero, (dF/dx=0),meaning that the force is not varying as the displacement takes place.
x-axis
x-axis
The independent variable is typically placed on the x-axis.
In principle, wherever you want. However, it is customary to place the independent variable on the horizontal axis, and the dependent variable on the vertical axis.
The manipulated variable goes on the horizontal axis.
The independent variable (such as time) is places on the x-axis of a graph. Always place the things that will never change on the x-axis. The dependent variable is then placed on the y-axis. The difference between the independent and dependent variable is that the independent variable in an experient does not change it is what stays constent, it is what is used to measure the dependent variable. On the other hand the dependent variable is what the experiment is testing for and what depends on the independent variable.
Assuming that the independent variable (often called "y") is along the vertical axis: to be a function, no vertical line may cross the graph in more than one place.
On the y-axis.
If one of the variables was independent or if there was a causal relationship between the two variables, then that variable would be placed on the x-axis. If there were no independent variable but one of them was discrete then that would usually be on the x-axis. Otherwise, any variable could be placed on the x-axis.
neither, an independent variable is a variable not being changed in the process of a science experiment. A variable in math cannot be described, only purpose of a variable is to take place of a number that you are trying to figure out in some equations. Others are equations with no solution.
The numbers on the bottom of a graph usually represent the independent variable, which is typically time or some other factor being measured. These numbers help to place the data points in context along the x-axis and provide a scale for interpreting the information presented in the graph.
The dependence or independence of a variable does not have a bearing on its position in a fraction.